Acyl Derivatives Acetate Esters

Acetylsucrose [63648-81-7] has been prepared in 40% yield by direct acetylation of sucrose using acetic anhydride in pyridine at 40° C (36). The 6-ester has subsequently been obtained in greater than 90% yield, by way of 4,6-cycHc orthoacetate. Other selective methods for the 6-acylated derivatives include the use of alkyl tin reagents such as dibutyl tin oxide (37) and of dibutyl stannolane derivatives (38). Selective acetylation of sucrose by an enzymic process has also been described. Treatment of sucrose with isopropenyl acetate in pyridine in the presence of Lipase P Amano gave, after chromatography, 6-0-acetylsucrose (33%) and 4/6-di-O-acetylsucrose (8%). The latter compound has been obtained in 47% yield by the prolonged treatment (39). 

The smooth conversion of the enol acetate (151) into an A -acyl derivative (152) under extremely mild conditions points to the high acylating capacity of these esters. This cleavage of isoxazolium salts is also caused by other anions of carboxylic acids, and thus they can be readily converted to reactive enol esters. A very convenient and specific synthesis of peptides due to Woodward et is based on... 

Unsaturated acyl derivatives of oxazolidinones can be used as acceptors, and these reactions are enantioselective in the presence of chiral to-oxazoline catalysts.321 Silyl ketene acetals of thiol esters are good reactants and the stereochemistry depends on the ketene acetal configuration. The Z-isomer gives higher diastereoselectivity than the Zf-isomer. 

Fig. 2 Action of desaturases and limited chain shortening can produce a variety of mono-unsaturated acyl-CoA precursors that can be modified to form unsaturated pheromone compounds. The arrow pointing down indicates limited chain shortening by two carbons. Modification of all 16-, 14-, 12-, and 10-carbon acyl-CoA derivatives on the carbonyl carbon can account for the majority of monounsaturated acetate esters, aldehydes, and alcohols identified as sex pheromones...

A method involving SPE was developed for the determination of ten A-nitroso amino acids in cured meat products. These compounds were derivatized with diazomethane followed by O-acylation of hydroxyl groups with acetic anhydride-pyridine reagent. The methyl esters and their acylated derivatives were separated by GC on a DB-5 fused silica capillary column and quantified with a TEA-CLD specific for the nitric oxide derived from the thermal denitrosation of nitrosamines recovery exceeded 75% at the 10 ppb level579. 

Many such activated acyl derivatives have been developed, and the field has been reviewed [7-9]. The most commonly used irreversible acyl donors are various types of vinyl esters. During the acylation of the enzyme, vinyl alcohols are liberated, which rapidly tautomerize to non-nucleophilic carbonyl compounds (Scheme 4.5). The acyl-enzyme then reacts with the racemic nucleophile (e.g., an alcohol or amine). Many vinyl esters and isopropenyl acetate are commercially available, and others can be made from vinyl and isopropenyl acetate by Lewis acid- or palladium-catalyzed reactions with acids [10-12] or from transition metal-catalyzed additions to acetylenes [13-15]. If ethoxyacetylene is used in such reactions, R1 in the resulting acyl donor will be OEt (Scheme 4.5), and hence the end product from the acyl donor leaving group will be the innocuous ethyl acetate [16]. Other frequently used acylation agents that act as more or less irreversible acyl donors are the easily prepared 2,2,2-trifluoro- and 2,2,2-trichloro-ethyl esters [17-23]. Less frequently used are oxime esters and cyanomethyl ester [7]. S-ethyl thioesters such as the thiooctanoate has also been used, and here the ethanethiol formed is allowed to evaporate to displace the equilibrium [24, 25]. Some anhydrides can also serve as irreversible acyl donors. 

The dividing line between esters and anhydrides is an arbitrary one. 2,4-Dinitrophenol is a stronger acid than acetic acid, so its acyl derivatives, usually regarded as aryl esters, may be considered alternatively as mixed anhydrides. As such they would be expected to undergo nucleophilic attack by oxyanions, to generate a molecule of a carboxylic anhydride, viz. 

Carboxylic acid derivatives, as well as aldehydes and ketones, together with the corresponding sulfur compounds, have been included in this section. The reactivity of the 1- and 3-positions is such that in syntheses using acetic anhydride it is often impossible to prevent acetylation. Acyl derivatives may be formed from acid chlorides,44,159-161 cyclobutene-dione derivatives,162 or esters.163 Thus, reaction of a substituted in-... 

Although most polysaccharides may be acylated without degradation, acyl derivatives of xylans29 are often unsatisfactory for molecular-weight determinations owing to their poor solubility characteristics. Mixed esters of xylans143 are often superior in this respect, but there are obvious difficulties in the differential analysis of acyl groups. Hemicellulose nitrates have been used for measurements of molecular size,168 but xylan nitrates,29 like xylan acetates, are reported to have poor solubility characteristics. 

Aceto Acetic Ester S3mtheses.— These alkyl and acyl derivatives of ethyl aceto acetate, both the mono- and the di- derivatives, react now on hydrolysis in the two ways given above, i.e.y by Xheketonehydro-lysis or the acid hydrolysis and we may thus obtain a large number of ketones and acids as desired. 

For acylations with propionyl and phenylacetyl chlorides, see Ref. 71JCS(C)706. 4-Amino-5-phenyltriazole, refluxed with ethyl acetoacetate in toluene, gave 4-acetoacetamido-5-phenyltriazole (7 hr, 67%), which hot acetic anhydride converted to the 3-acetyl derivative. However, the reaction of 4-aminotriazole-5-carboxamide with cold acetoacetic ester gave a IV-vinyl (and not a iV-acyl) derivative (see Section III,B) [73JCS(P1)943]. 

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